CN218804181U - Pressure head assembly, pressure maintaining equipment and pressure maintaining system - Google Patents

Abstract

The utility model relates to a production facility technical field discloses a pressure head subassembly, pressurize equipment and pressurize system, including first slide mechanism, first connecting plate, second slide mechanism, the second connecting plate, third slide mechanism and pressure head, first connecting plate is connected in first slide mechanism, first slide mechanism is used for driving first connecting plate and slides along the first direction, second slide mechanism connects in first connecting plate, the second connecting plate is connected in second slide mechanism, second slide mechanism is used for driving the relative first connecting plate of second connecting plate and slides along the second direction, third slide mechanism connects in the second connecting plate, the pressure head is connected in third slide mechanism, third slide mechanism is used for driving the relative second connecting plate of pressure head and slides along the third direction. Adopt the utility model discloses a pressure head subassembly can adjust and match not unidimensional material in order to process not unidimensional material, and the machining efficiency of pressurize equipment and pressurize system is higher.

Description

Pressure head assembly, pressure maintaining equipment and pressure maintaining system

Technical Field

The utility model relates to a production facility technical field especially relates to a pressure head subassembly, pressurize equipment and pressurize system.

Background

In the related art, pressure maintaining equipment is generally used to apply pressure to electronic devices (such as display screens, mobile phones, tablet computers) and the like, so that the joint positions of the electronic devices bonded by using an adhesive can be in full contact with the adhesive during assembly, and the bonding strength is improved. When the pressure maintaining equipment works, the electronic equipment is placed below a pressure head of the pressure maintaining equipment, and the pressure head moves downwards to contact with the electronic equipment and apply pressure to the electronic equipment, so that the joint of the electronic equipment is fully contacted with the adhesive.

However, the pressure head of the existing pressure maintaining equipment adopts an integral type pressing block, the pressure head is approximately in a plate shape or a frame shape matched with the electronic equipment, the pressure head cannot be matched with the electronic equipment with different sizes, when the electronic equipment with different sizes is processed, the pressure head with different sizes needs to be replaced, and the processing efficiency is low.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model discloses pressure head subassembly, pressurize equipment and pressurize system, pressure head subassembly can adjust and match not unidimensional material in order to process not unidimensional material, and machining efficiency is higher.

In a first aspect, the embodiment of the present invention discloses a pressure head assembly, which includes a first sliding mechanism, a first connecting plate, a second sliding mechanism, a second connecting plate, a third sliding mechanism and a pressure head, wherein the first connecting plate is connected to the first sliding mechanism, the first sliding mechanism is used for driving the first connecting plate to slide along a first direction, the second sliding mechanism is connected to the first connecting plate, the second connecting plate is connected to the second sliding mechanism, the second sliding mechanism is used for driving the second connecting plate to slide along a second direction relative to the first connecting plate, the third sliding mechanism is connected to the second connecting plate, the pressure head is connected to the third sliding mechanism, and the third sliding mechanism is used for driving the pressure head to slide along a third direction relative to the second connecting plate;

wherein the first direction, the second direction, and the third direction are non-parallel and non-collinear pairwise.

As an optional implementation manner, in the embodiment of the present invention, the pressing head assembly further includes a buffer component, and the buffer component is located on a side of the pressing head deviating from the second connecting plate.

As an optional implementation manner, in the embodiment of the present invention, a groove is disposed on one side of the pressing head away from the second connecting plate, and the buffer member is embedded in the groove.

As an optional implementation manner, in the embodiment of the present invention, the groove is a strip-shaped groove, a cross section of the groove is u-shaped, the buffer member is a strip-shaped block matched with the groove, and a cross section of the buffer member is quadrilateral;

the material of bolster includes one or more in sponge, silica gel and the rubber.

As an optional implementation manner, in an embodiment of the present invention, the pressure head assembly further includes a first driving device and a pressure sensor, the first driving device is disposed on the first connecting plate, the pressure sensor is connected between the first driving device and the second connecting plate, and the first driving device is configured to drive the second connecting plate to slide in the second direction relative to the first connecting plate;

the first sliding mechanism comprises a first sliding rail and a first sliding block, the first sliding block can be connected to the first sliding rail in a sliding manner along the first direction, and the first connecting plate is connected to the first sliding block;

the second sliding mechanism comprises a first guide sleeve and a first guide pillar, the first guide sleeve is arranged on the first connecting plate, the first guide pillar can be connected to the first guide sleeve in a sliding mode along the second direction, and the second connecting plate is connected to the first guide pillar;

the third sliding mechanism comprises a second sliding rail and a second sliding block, the second sliding rail is arranged on one side, away from the first connecting plate, of the second connecting plate, the second sliding block can be connected to the second sliding rail in a sliding mode in the third direction, and the pressure head is connected to the second sliding block.

In a second aspect, the embodiment of the utility model discloses pressurize equipment, pressure head subassembly including support, fourth slide mechanism, mounting panel and first aspect, fourth slide mechanism connect in the support, the mounting panel connect in fourth slide mechanism, fourth slide mechanism is used for driving the mounting panel is relative the support is followed the second direction slides, and is a plurality of pressure head subassembly first slide mechanism connect in the mounting panel deviates from one side of fourth slide mechanism, it is a plurality of the pressure head subassembly enclose in proper order close distribute in the mounting panel.

As an optional implementation manner, in the embodiment of the present invention, the fourth sliding mechanism includes a first fixing plate, a second guide sleeve, and a second guide pillar, the first fixing plate is disposed on the bracket, the second guide sleeve is disposed on the first fixing plate, the second guide pillar can be slidably connected to the second guide sleeve along the second direction, and the mounting plate is connected to the second guide pillar.

As an optional implementation manner, in the embodiment of the present invention, the fourth sliding mechanism further includes a second fixing plate, a ring member, and a third guide sleeve, the second fixing plate is disposed on a side of the first fixing plate facing the mounting plate at an interval, the ring member is disposed between the second fixing plate and the first fixing plate, the third guide sleeve is disposed on the second fixing plate, and the second guide pillar may further be slidably connected to the third guide sleeve along the second direction;

the support comprises a bearing part and a plurality of support legs, the bearing part comprises two opposite sides which are a first side and a second side respectively, the support legs are arranged on the first side, the mounting plate is positioned on the first side, the fourth sliding mechanism part is arranged on the first side, and the fourth sliding mechanism part is positioned on the second side and is connected with the mounting plate;

the pressure maintaining equipment further comprises a second driving device, the second driving device comprises a motor and a screw rod mechanism, the motor is arranged on the fourth sliding mechanism, the screw rod mechanism is connected to the motor and the mounting plate, and the motor is used for driving the screw rod mechanism to drive the mounting plate to slide along the second direction relative to the support;

the pressurize equipment still includes the stopper, the stopper is located the support orientation one side of mounting panel, the stopper be used for with the mounting panel butt is in order to restrict the mounting panel is followed the second direction is to being close to the direction of support slides.

The embodiment of the utility model discloses a pressure maintaining system, including the pressure maintaining equipment of feeder equipment and second aspect, the feeder equipment includes base and conveyor, the base is located one side that the mounting panel deviates from the support, conveyor includes fifth slide mechanism and frame, fifth slide mechanism locates the base, the frame is connected to fifth slide mechanism, the frame is used for placing the material, fifth slide mechanism is used for driving the frame relative the base along the third direction slip;

the conveying device comprises a plurality of bearing plates, the bearing plates are arranged on the frame at intervals, and the bearing plates are used for placing the materials;

the feeding equipment further comprises a clamping mechanism, the clamping mechanism comprises two first baffle plates and two second baffle plates, the two first baffle plates are arranged on the feeding equipment at intervals and can slide along the third direction, and the two second baffle plates are arranged on the feeding equipment at intervals and can slide along the first direction;

the conveying device is a plurality of, and a plurality of the conveying device is different along the distance of second direction to the mounting panel.

Compared with the prior art, the embodiment of the utility model has following beneficial effect at least:

the embodiment of the utility model provides an in, connect in first slide mechanism through first connecting plate, first slide mechanism can drive first connecting plate and slide along the first direction, the second connecting plate passes through second slide mechanism and is connected with first connecting plate, second slide mechanism can drive the relative first connecting plate of second connecting plate and slide along the second direction, the pressure head passes through third slide mechanism and is connected with the second connecting plate, third slide mechanism can drive the relative second connecting plate of pressure head and slide along the third direction, and simultaneously, first direction, two liang of non-parallel and non-collineation of second direction and third direction. Like this, when the second connecting plate slides relatively first connecting plate, the second connecting plate can drive the pressure head and slide along the second direction, thereby make the pressure head exert pressure to the material, and first connecting plate can drive second connecting plate and pressure head and slide along the first direction jointly, and the pressure head can slide along the third direction relatively the second connecting plate, thereby adjust the position of pressure head, make the pressure head can exert pressure to not unidimensional material, promptly, the pressure head subassembly can be adjusted and mate not unidimensional material in order to process not unidimensional material, machining efficiency is higher.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a pressure head assembly disclosed in an embodiment of the present invention;

fig. 2 is a schematic structural view of a pressure maintaining device disclosed in the second embodiment of the present invention;

fig. 3 is a schematic exploded view of a pressure maintaining device disclosed in the second embodiment of the present invention;

fig. 4 is a schematic structural view of a fourth sliding mechanism and a second driving device disclosed in the second embodiment of the present invention;

fig. 5 is a schematic diagram of a pressure maintaining system disclosed in the third embodiment of the present invention;

fig. 6 is a schematic structural diagram of a feeding device disclosed in the third embodiment of the present invention.

Description of the main reference numerals

100. A ram assembly; 10. a first sliding mechanism; 101. a first slide rail; 102. a first slider; 11. a first connecting plate; 12. a second sliding mechanism; 121. a first guide sleeve; 122. a first guide post; 13. a second connecting plate; 14. a third sliding mechanism; 141. a second slide rail; 142. a second slider; 15. a pressure head; 15a, a groove; 16. a first driving device; 17. a pressure sensor; 18. a buffer member; 200. pressure maintaining equipment; 20. a support; 201. a bearing part; 202. a support leg; 21. a fourth sliding mechanism; 211. a first fixing plate; 212. a second guide sleeve; 213. a second guide post; 214. a second fixing plate; 215. a third guide sleeve; 216. an annular member; 22. mounting a plate; 23. a second driving device; 231. a motor; 232. a screw mechanism; 24. a limiting block; 300. a pressure maintaining system; 30. a feeding device; 31. a base; 32. a conveying device; 321. a fifth slide mechanism; 322. a frame; 323. carrying a plate; 33. a clamping mechanism; 331. a first baffle plate; 332. a second baffle; a. material preparation; x, a third direction; y, a first direction; z, a second direction.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the present invention, the terms "upper", "lower", "left", "right", "front", "rear", "top", "bottom", "inner", "outer", "middle", "vertical", "horizontal", "lateral", "longitudinal", and the like indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings. These terms are used primarily to better describe the invention and its embodiments, and are not intended to limit the indicated devices, elements or components to a particular orientation or to be constructed and operated in a particular orientation.

Moreover, some of the above terms may be used to indicate other meanings besides the orientation or positional relationship, for example, the term "on" may also be used to indicate some kind of attachment or connection relationship in some cases. The specific meaning of these terms in the present invention can be understood according to specific situations by those of ordinary skill in the art.

Furthermore, the terms "mounted," "disposed," "provided," "connected," and "connected" are to be construed broadly. For example, it may be a fixed connection, a removable connection, or a unitary construction; can be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements or components. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

Furthermore, the terms "first," "second," and the like, are used primarily to distinguish one device, element, or component from another (the specific nature and configuration may be the same or different), and are not used to indicate or imply the relative importance or number of the indicated devices, elements, or components. "plurality" means two or more unless otherwise specified.

The utility model discloses a pressure head subassembly, pressurize equipment and pressurize system, pressure head subassembly can adjust and match not unidimensional material in order to process not unidimensional material, and machining efficiency is higher.

Example one

Please refer to fig. 1, which is a schematic structural diagram of a pressing head assembly 100 according to an embodiment of the present invention, the pressing head assembly 100 includes a first sliding mechanism 10, a first connecting plate 11, a second sliding mechanism 12, a second connecting plate 13, a third sliding mechanism 14 and a pressing head 15, the first connecting plate 11 is connected to the first sliding mechanism 10, the first sliding mechanism 10 is used to drive the first connecting plate 11 to slide along a first direction y, the second sliding mechanism 12 is connected to the first connecting plate 11, the second connecting plate 13 is connected to the second sliding mechanism 12, the second sliding mechanism 12 is used to drive the second connecting plate 13 to slide along a second direction z relative to the first connecting plate 11, the third sliding mechanism 14 is connected to the second connecting plate 13, the pressing head 15 is connected to the third sliding mechanism 14, and the third sliding mechanism 14 is used to drive the pressing head 15 to slide along a third direction x relative to the second connecting plate 13.

The first direction y, the second direction z and the third direction x are not parallel and collinear.

Optionally, the first direction y and the third direction x are two horizontal directions perpendicular to each other, that is, the first direction y and the third direction x are a longitudinal direction and a transverse direction, respectively, and the second direction z is perpendicular to the first direction y and the third direction x, that is, the second direction z is a vertical direction.

This embodiment is connected in first slide mechanism 10 through first connecting plate 11, first slide mechanism 10 can drive first connecting plate 11 and slide along first direction y, second connecting plate 13 passes through second slide mechanism 12 and is connected with first connecting plate 11, second slide mechanism 12 can drive second connecting plate 13 and slide along second direction z relatively first connecting plate 11, pressure head 15 passes through third slide mechanism 14 and is connected with second connecting plate 13, third slide mechanism 14 can drive pressure head 15 and slide along third direction x relatively second connecting plate 13, and simultaneously, first direction y and third direction x are two horizontal directions of mutually perpendicular, second direction z perpendicular to first direction y and third direction x. Like this, when second connecting plate 13 slides relative to first connecting plate 11, second connecting plate 13 can drive pressure head 15 and slide along second direction z, thereby make pressure head 15 exert pressure to the material, and first connecting plate 11 can drive second connecting plate 13 and pressure head 15 and slide along first direction y jointly, and pressure head 15 can slide along third direction x relative to second connecting plate 13, thereby adjust the position of pressure head 15 in the horizontal direction, make pressure head 15 can exert pressure to the material of equidimension not, namely, pressure head subassembly 100 can adjust and match the material of equidimension not in order to process the material of equidimension not, machining efficiency is higher.

In some embodiments, the ram assembly 100 further comprises a first driving device 16, the first driving device 16 is disposed on the first connecting plate 11, and the first driving device 16 is connected to the second connecting plate 13 for driving the second connecting plate 13 to slide along the second direction z relative to the first connecting plate 11. In this way, the first driving device 16 drives the second connecting plate 13 to slide along the second direction z relative to the first connecting plate 11, and at this time, the first driving device 16 can drive the second connecting plate 13 and the pressing head 15 to slide along the second direction z together, so that the pressing head 15 applies pressure to the material.

The first driving device 16 may be an air cylinder, an electric cylinder, or the like, and may be selected according to actual situations, which is not specifically limited in this embodiment.

Optionally, the ram assembly 100 further comprises a pressure sensor 17, the pressure sensor 17 being connected between the first drive means 16 and the second connecting plate 13. In this way, when the first driving device 16 drives the second connecting plate 13 to slide along the second direction z relative to the first connecting plate 11, the pressure head 15 slides along with the second connecting plate 13 to apply pressure to the material, at this time, the pressure sensor 17 can detect the magnitude of the pressure, and the acting force for driving the second connecting plate 13 to slide can be adjusted according to the magnitude of the pressure from the first driving device 16, so that the pressure maintaining quality is improved.

Illustratively, the indenter assembly 100 further includes a buffer 18, and the buffer 18 is disposed on a side of the indenter 15 facing away from the second connecting plate 13. Like this, when pressure head 15 along second direction z sliding contact material and exert pressure to the material along second connecting plate 13, bolster 18 can cushion vibration and impact, avoids pressure head 15 direct contact material to lead to the condition of material damage to take place.

In some embodiments, a side of the pressing head 15 facing away from the second connecting plate 13 is provided with a groove 15a, and the buffer 18 is embedded in the groove 15 a. In this way, the buffer member 18 is fixed by the groove 15a, so that the situation that the pressing precision is low due to the change of the position of the buffer member 18 relative to the pressing head 15 when the buffer member 18 is in contact with the material can be avoided.

The groove 15a may be a strip-shaped groove, the cross-section of the groove 15a is u-shaped, the buffer member 18 is a strip-shaped block matching with the groove 15a, and the cross-section of the buffer member 18 is quadrilateral.

Optionally, the material of the buffer 18 includes one or more of sponge, silica gel, and rubber. Thus, the present embodiment provides a plurality of cushioning members 18 made of different materials, which can be selected according to actual situations, and the present embodiment is not limited to this.

In some embodiments, the first sliding mechanism 10 includes a first sliding rail 101 and a first sliding block 102, the first sliding block 102 is slidably connected to the first sliding rail 101 along the first direction y, and the first connecting plate 11 is connected to the first sliding block 102. In this way, the first slider 102 slides along the first direction y relative to the first slide rail 101, and the first slider 102 drives the first connecting plate 11 to slide along the first direction y, and at this time, the second connecting plate 13 and the pressure head 15 can slide along the first direction y, so as to adjust the position of the pressure head 15 along the first direction y.

Optionally, the second sliding mechanism 12 includes a first guide sleeve 121 and a first guide post 122, the first guide sleeve 121 is disposed on the first connection plate 11, the first guide post 122 can be slidably connected to the first guide sleeve 121 along the second direction z, and the second connection plate 13 is connected to the first guide post 122. Therefore, the first guide pillar 122 slides along the second direction z relative to the first guide sleeve 121, the first guide pillar 122 drives the second connecting plate 13 to slide along the second direction z relative to the first connecting plate 11, and at this time, the pressing head 15 can slide along the second direction z, so as to apply pressure to the material.

Illustratively, the third sliding mechanism 14 includes a second slide rail 141 and a second slide block 142, the second slide rail 141 is disposed on a side of the second connecting plate 13 away from the first connecting plate 11, the second slide block 142 is slidably connected to the second slide rail 141 along the third direction x, and the pressing head 15 is connected to the second slide block 142. In this way, the second slider 142 slides along the third direction x relative to the second slide rail 141, and the second slider 142 drives the pressure head 15 to slide along the third direction x, so as to adjust the position of the pressure head 15 along the third direction x.

The embodiment of the utility model provides a pressure head subassembly 100, connect in first slide mechanism 10 through first connecting plate 11, first slide mechanism 10 can drive first connecting plate 11 and slide along first direction y, second connecting plate 13 is connected with first connecting plate 11 through second slide mechanism 12, second slide mechanism 12 can drive second connecting plate 13 and slide along second direction z first connecting plate 11 relatively, pressure head 15 is connected with second connecting plate 13 through third slide mechanism 14, third slide mechanism 14 can drive pressure head 15 and slide along third direction x second connecting plate 13 relatively, and simultaneously, first direction y and third direction x are two horizontal directions of mutually perpendicular, second direction z perpendicular to first direction y and third direction x. Like this, when second connecting plate 13 slides relative first connecting plate 11, second connecting plate 13 can drive pressure head 15 and slide along second direction z, thereby make pressure head 15 exert pressure to the material, and first connecting plate 11 can drive second connecting plate 13 and pressure head 15 and slide along first direction y jointly, and pressure head 15 can slide along third direction x relative second connecting plate 13, thereby adjust the position of pressure head 15 in the horizontal direction, make pressure head 15 can exert pressure to the material of different sizes, namely, pressure head subassembly 100 can adjust and match the material of different sizes in order to process the material of different sizes, and machining efficiency is higher.

Example two

Please refer to fig. 2 and fig. 3, which are schematic structural diagrams of a pressure maintaining apparatus 200 according to a second embodiment of the present invention, including a support 20, a fourth sliding mechanism 21, a mounting plate 22 and a pressure head assembly 100 according to the first embodiment, wherein the fourth sliding mechanism 21 is connected to the support 20, the mounting plate 22 is connected to the fourth sliding mechanism 21, the fourth sliding mechanism 21 is configured to drive the mounting plate 22 to slide along a second direction z relative to the support 20, the first sliding mechanisms 10 of the pressure head assemblies 100 are connected to one side of the mounting plate 22 deviating from the fourth sliding mechanism 21, and the pressure head assemblies 100 are sequentially distributed on the mounting plate 22.

This embodiment connects mounting panel 22 through fourth slide mechanism 21, fourth slide mechanism 21 can drive mounting panel 22 relative support 20 and slide along second direction z, thereby a plurality of pressure head subassemblies 100 slide along second direction z along with mounting panel 22, and like this, it slides along second direction z to drive mounting panel 22 and a plurality of pressure head subassemblies 100 through fourth slide mechanism 21, can be close to the material fast, after a plurality of pressure head subassemblies 100 are close to the material, accessible pressure head subassembly 100's second slide mechanism 12 makes pressure head 15 exert pressure to the material, improve pressurize equipment 200's machining efficiency.

In some embodiments, as shown in fig. 3 and 4, the fourth sliding mechanism 21 includes a first fixing plate 211, a second guide sleeve 212, and a second guide post 213, the first fixing plate 211 is disposed on the bracket 20, the second guide sleeve 212 is disposed on the first fixing plate 211, the second guide post 213 is slidably connected to the second guide sleeve 212 along the second direction z, and the mounting plate 22 is connected to the second guide post 213. On one hand, the second guide post 213 slides along the second direction z relative to the second guide sleeve 212, the second guide post 213 drives the mounting plate 22 to slide along the second direction z relative to the first fixing plate 211, and at this time, the ram assembly 100 can slide along the second direction z, so as to approach to the material. On the other hand, the first fixing plate 211 is disposed on the bracket 20, so as to provide support for the second guide sleeve 212, reduce vibration generated when the second guide post 213 slides relative to the second guide sleeve 212, and improve stability of sliding, thereby improving pressure maintaining quality.

Further, the fourth sliding mechanism 21 further includes a second fixing plate 214, a third guide sleeve 215, and a ring 216, the second fixing plate 214 is disposed at an interval on a side of the first fixing plate 211 facing the mounting plate 22, the ring 216 is disposed between the second fixing plate 214 and the first fixing plate 211, the third guide sleeve 215 is disposed on the second fixing plate 214, and the second guide post 213 is further slidably connected to the third guide sleeve 215 along the second direction z. Thus, the third guide sleeve 215 is disposed on the second fixing plate 214, so that the third guide sleeve 215 can provide support for the third guide sleeve 215, vibration generated when the second guide pillar 213 slides is reduced, the second guide pillar 213 slides along the second guide sleeve 212 and the third guide sleeve 215, the second guide sleeve 212 and the third guide sleeve 215 can provide a plurality of support positions for the second guide pillar 213 to slide, sliding stability of the second guide pillar 213 is improved, and pressure maintaining quality of the pressure maintaining device 200 is better.

In some embodiments, as shown in fig. 2, the bracket 20 includes a supporting portion 201 and a plurality of supporting legs 202, the supporting portion 201 includes two opposite sides, namely a first side and a second side, the plurality of brackets 20 are disposed on the first side, the mounting plate 22 is disposed on the first side, the fourth sliding mechanism 21 is partially disposed on the first side, and the fourth sliding mechanism 21 is partially disposed on the second side and connected to the mounting plate 22. Like this, set up fourth slide mechanism 21 through the first side of carrier part 201, fourth slide mechanism 21 part is located the second side in order to drive mounting panel 22 and slide at the second side, can make full use of the space of support 20, and the overall structure of pressurize equipment 200 is comparatively compact.

Illustratively, as shown in fig. 3 and 4, the holding pressure device 200 further includes a second driving device 23, the second driving device 23 is provided at the fourth sliding mechanism 21, and the second driving device 23 is connected to the mounting plate 22 for driving the mounting plate 22 to slide in the second direction z relative to the bracket 20. In this way, the second driving device 23 drives the mounting plate 22 to slide along the second direction z relative to the bracket 20, so that the degree of automation is high, the sliding accuracy of the mounting plate 22 is high, the sliding accuracy of the ram assembly 100 can be improved, and the pressure maintaining effect of the pressure maintaining device 200 is good.

Further, the second driving device 23 includes a motor 231 and a screw rod mechanism 232, the motor 231 is disposed on the fourth sliding mechanism 21, the screw rod mechanism 232 is connected to the motor 231 and the mounting plate 22, and the motor 231 is used for driving the screw rod mechanism 232 to drive the mounting plate 22 to slide along the second direction z relative to the bracket 20. In this way, the motor 231 rotates to drive the screw rod mechanism 232 to move, the screw rod mechanism 232 converts the rotation into linear motion and drives the mounting plate 22 to slide along the second direction z relative to the bracket 20, and the structure is simple and the occupied space is small.

In some embodiments, as shown in fig. 3, the pressure maintaining device 200 further includes a stopper 24, the stopper 24 is disposed on a side of the bracket 20 facing the mounting plate 22, and the stopper 24 is configured to abut against the mounting plate 22 to limit the mounting plate 22 from sliding in a direction approaching the bracket 20 along the second direction z. In this way, when the mounting plate 22 slides along the second direction z relative to the bracket 20 and abuts against the stopper 24, the stopper 24 can limit the mounting plate 22 to continue sliding, so as to avoid the situation that the mounting plate 22 slides beyond the stroke and the pressure maintaining device 200 is damaged.

Optionally, the material of the limiting block 24 may be steel, rigid plastic, or the like, which can be selected according to actual situations, and this embodiment is not limited in this respect.

The embodiment of the utility model provides a pressurize equipment 200, a plurality of pressure head subassemblies 100 can follow the position that first direction y and third direction x adjusted the pressure head 15 to match not unidimensional material and process with the material to not unidimensional, machining efficiency is higher.

EXAMPLE III

Referring to fig. 5, for the schematic diagram of the structure of the pressure maintaining system 300 provided in the third embodiment of the present invention, the pressure maintaining system 300 includes a feeding device 30 and a pressure maintaining device 200 of the second embodiment, the feeding device 30 is disposed on one side of the mounting plate 22 away from the bracket 20, and the feeding device 30 is used for conveying the material a to be processed to the processing position of the plurality of pressing head assemblies 100.

In some embodiments, as shown in fig. 6, the feeding device 30 includes a base 31 and a conveying device 32, where the conveying device 32 includes a fifth sliding mechanism 321 and a frame 322, the fifth sliding mechanism 321 is disposed on the base 31, the frame 322 is connected to the fifth sliding mechanism 321, the frame 322 is used for placing the material a, and the fifth sliding mechanism 321 is used for driving the frame 322 to slide along the third direction x relative to the base 31. In this way, the frame 322 is driven by the fifth sliding mechanism 321 to slide along the third direction x relative to the base 31, and the frame 322 can move the material a to the processing position of the plurality of ram assemblies 100, at this time, the plurality of ram assemblies 100 can apply pressure to the material a.

Illustratively, the conveying device 32 includes a plurality of supporting plates 323, the plurality of supporting plates 323 are spaced apart from each other on the frame 322, and the plurality of supporting plates 323 are used for placing the material a. Like this, bear material a through a plurality of loading boards 323, can improve the stability that material a placed on frame 322 to improve pressurize quality.

In some embodiments, the feeding device 30 further comprises a clamping mechanism 33, the clamping mechanism 33 is disposed on the conveying device 32, and the clamping mechanism 33 is used for clamping the material a placed on the conveying device 32. Like this, when conveyor 32 carries material a to the in-process of a plurality of pressure head subassembly 100's processing position, utilize clamping mechanism 33 to press from both sides tight fixedly to material a, can avoid material a to take place to remove and lead to material a to take place the deviation when processing position, lead to the relatively poor condition of pressurize precision to take place, and, when a plurality of pressure head subassemblies 100 exert pressure to material a, clamping mechanism 33 can press from both sides tight fixedly to material a, keep the fixed position of a plurality of pressure head subassemblies 100 relatively of material a, improve the pressurize quality.

Further, the clamping mechanism 33 includes two first blocking plates 331 and two second blocking plates 332, the two first blocking plates 331 are spaced apart from each other and slidably disposed in the feeding device 30 along the third direction x, and the two second blocking plates 332 are spaced apart from each other and slidably disposed in the feeding device 30 along the first direction y. Thus, when the two first blocking plates 331 slide away from each other along the third direction x, the distance between the two first blocking plates 331 can be increased, and conversely, when the two first blocking plates 331 approach each other, the distance between the two first blocking plates 331 can be decreased, so that the material a between the two first blocking plates 331 is clamped along the third direction x. Meanwhile, when the two second baffles 332 slide away from each other along the second direction y, the distance between the two second baffles 332 can be increased, and conversely, when the two second baffles 332 approach each other, the distance between the two second baffles 332 can be decreased, so that the material a between the two second baffles 332 is clamped along the first direction y.

In some embodiments, the feeder device 30 includes a plurality of conveyors 32, and the plurality of conveyors 32 vary in distance from the mounting plate 22 along the second direction z. In this way, the plurality of conveyors 32 can alternately convey the material a to the processing positions of the plurality of ram assemblies 100 by different distances from the plurality of conveyors 32 to the mounting plate 22 in the second direction z, thereby improving the processing efficiency of the pressure holding system 300. For example, in the embodiment, two conveying devices 32 are taken as an example, when one of the conveying devices 32 conveys the material a to the processing position for processing, after the processing is completed, the material a can be moved away from the processing position to achieve discharging, and meanwhile, the other conveying device 32 can convey the material a to the processing position for processing to achieve feeding, that is, the two conveying devices 32 can simultaneously and respectively perform feeding and discharging, so that the alternation can save the feeding and discharging time and improve the processing efficiency.

The embodiment of the utility model provides a pressurize system 300 adopts conveyor 32 to carry out the pay-off, and degree of automation is higher, and conveyor 32 can realize material loading and unloading in turn, saves the time of material loading and unloading, improves machining efficiency.

The pressure head assembly, the pressure maintaining equipment and the pressure maintaining system disclosed by the embodiment of the invention are described in detail, the principle and the implementation mode of the invention are explained by applying an example, and the description of the above embodiment is only used for helping to understand the pressure head assembly, the pressure maintaining equipment and the pressure maintaining system and the core idea thereof; meanwhile, for the general technical personnel in the field, according to the idea of the present invention, there are changes in the specific implementation and application scope, to sum up, the content of the present specification should not be understood as the limitation of the present invention.

Claims (10)

1. A ram assembly, comprising:

a first sliding mechanism;

the first connecting plate is connected to the first sliding mechanism, and the first sliding mechanism is used for driving the first connecting plate to slide along a first direction;

a second sliding mechanism connected to the first connection plate;

the second connecting plate is connected to the second sliding mechanism, and the second sliding mechanism is used for driving the second connecting plate to slide along a second direction relative to the first connecting plate;

a third sliding mechanism connected to the second connecting plate; and

the pressure head is connected to the third sliding mechanism, and the third sliding mechanism is used for driving the pressure head to slide along a third direction relative to the second connecting plate;

wherein the first direction, the second direction, and the third direction are non-parallel and non-collinear pairwise.

2. The indenter assembly of claim 1, further comprising a buffer disposed on a side of the indenter facing away from the second web.

3. The indenter assembly of claim 2, wherein a groove is disposed on a side of the indenter facing away from the second web, and the bumper is embedded in the groove.

4. The ram assembly of claim 3, wherein the groove is a strip-shaped groove, the cross-section of the groove is U-shaped, the buffer member is a strip-shaped block matched with the groove, and the cross-section of the buffer member is quadrilateral;

the material of bolster includes one or more in sponge, silica gel and the rubber.

5. The ram assembly of any one of claims 1-4, further comprising a first drive device disposed on the first connecting plate and a pressure sensor coupled between the first drive device and the second connecting plate, the first drive device configured to drive the second connecting plate to slide relative to the first connecting plate in the second direction;

the first sliding mechanism comprises a first sliding rail and a first sliding block, the first sliding block can be connected to the first sliding rail in a sliding mode along the first direction, and the first connecting plate is connected to the first sliding block;

the second sliding mechanism comprises a first guide sleeve and a first guide pillar, the first guide sleeve is arranged on the first connecting plate, the first guide pillar can be connected to the first guide sleeve in a sliding mode along the second direction, and the second connecting plate is connected to the first guide pillar;

the third sliding mechanism comprises a second sliding rail and a second sliding block, the second sliding rail is arranged on one side, away from the first connecting plate, of the second connecting plate, the second sliding block can be connected to the second sliding rail in a sliding mode in the third direction, and the pressure head is connected to the second sliding block.

6. A pressure maintaining device, comprising a support, a fourth sliding mechanism, a mounting plate, and a plurality of pressure head assemblies according to any one of claims 1 to 5, wherein the fourth sliding mechanism is connected to the support, the mounting plate is connected to the fourth sliding mechanism, the fourth sliding mechanism is configured to drive the mounting plate to slide along the second direction relative to the support, the first sliding mechanisms of the plurality of pressure head assemblies are connected to a side of the mounting plate facing away from the fourth sliding mechanism, and the plurality of pressure head assemblies are sequentially distributed around the mounting plate.

7. The pressure maintaining apparatus according to claim 6, wherein the fourth sliding mechanism includes a first fixing plate provided on the holder, a second guide sleeve provided on the first fixing plate, and a second guide post slidably connected to the second guide sleeve along the second direction, and the mounting plate is connected to the second guide post.

8. The pressure maintaining apparatus according to claim 7, wherein the fourth sliding mechanism further includes a second fixing plate, a ring member, and a third guide sleeve, the second fixing plate is disposed at an interval on a side of the first fixing plate facing the mounting plate, the ring member is disposed between the second fixing plate and the first fixing plate, the third guide sleeve is disposed on the second fixing plate, and the second guide post is further slidably connected to the third guide sleeve along the second direction;

the support comprises a bearing part and a plurality of support legs, the bearing part comprises two opposite sides which are a first side and a second side respectively, the support legs are arranged on the first side, the mounting plate is positioned on the first side, the fourth sliding mechanism part is arranged on the first side, and the fourth sliding mechanism part is positioned on the second side and is connected with the mounting plate;

the pressure maintaining equipment further comprises a second driving device, the second driving device comprises a motor and a screw rod mechanism, the motor is arranged on the fourth sliding mechanism, the screw rod mechanism is connected to the motor and the mounting plate, and the motor is used for driving the screw rod mechanism to drive the mounting plate to slide along the second direction relative to the support;

the pressurize equipment still includes the stopper, the stopper is located the support orientation one side of mounting panel, the stopper be used for with the mounting panel butt is in order to restrict the mounting panel is followed the second direction is to being close to the direction of support slides.

9. A pressure maintaining system, comprising a feeding device and the pressure maintaining device as claimed in any one of claims 6 to 8, wherein the feeding device includes a base and a conveying device, the base is disposed on a side of the mounting plate facing away from the support, the conveying device includes a fifth sliding mechanism and a frame, the fifth sliding mechanism is disposed on the base, the frame is connected to the fifth sliding mechanism, the frame is used for placing a material, and the fifth sliding mechanism is used for driving the frame to slide along the third direction relative to the base.

10. The pressure maintaining system of claim 9, wherein the conveyor comprises a plurality of carrying plates spaced apart from the frame, the plurality of carrying plates being configured to receive the material;

the feeding equipment further comprises a clamping mechanism, the clamping mechanism comprises two first baffle plates and two second baffle plates, the two first baffle plates are arranged on the feeding equipment at intervals and can slide along the third direction, and the two second baffle plates are arranged on the feeding equipment at intervals and can slide along the first direction;

the conveying device is a plurality of, and a plurality of the conveying device is different along the distance of second direction to the mounting panel.

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